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path: root/drivers/ieee1394/nodemgr.c
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/*
 * Node information (ConfigROM) collection and management.
 *
 * Copyright (C) 2000		Andreas E. Bombe
 *               2001-2003	Ben Collins <bcollins@debian.net>
 *
 * This code is licensed under the GPL.  See the file COPYING in the root
 * directory of the kernel sources for details.
 */

#include <linux/bitmap.h>
#include <linux/kernel.h>
#include <linux/list.h>
#include <linux/slab.h>
#include <linux/delay.h>
#include <linux/kthread.h>
#include <linux/module.h>
#include <linux/moduleparam.h>
#include <linux/mutex.h>
#include <linux/freezer.h>
#include <linux/semaphore.h>
#include <asm/atomic.h>

#include "csr.h"
#include "highlevel.h"
#include "hosts.h"
#include "ieee1394.h"
#include "ieee1394_core.h"
#include "ieee1394_hotplug.h"
#include "ieee1394_types.h"
#include "ieee1394_transactions.h"
#include "nodemgr.h"

static int ignore_drivers;
module_param(ignore_drivers, int, S_IRUGO | S_IWUSR);
MODULE_PARM_DESC(ignore_drivers, "Disable automatic probing for drivers.");

struct nodemgr_csr_info {
	struct hpsb_host *host;
	nodeid_t nodeid;
	unsigned int generation;
	unsigned int speed_unverified:1;
};


/*
 * Correct the speed map entry.  This is necessary
 *  - for nodes with link speed < phy speed,
 *  - for 1394b nodes with negotiated phy port speed < IEEE1394_SPEED_MAX.
 * A possible speed is determined by trial and error, using quadlet reads.
 */
static int nodemgr_check_speed(struct nodemgr_csr_info *ci, u64 addr,
			       quadlet_t *buffer)
{
	quadlet_t q;
	u8 i, *speed, old_speed, good_speed;
	int error;

	speed = &(ci->host->speed[NODEID_TO_NODE(ci->nodeid)]);
	old_speed = *speed;
	good_speed = IEEE1394_SPEED_MAX + 1;

	/* Try every speed from S100 to old_speed.
	 * If we did it the other way around, a too low speed could be caught
	 * if the retry succeeded for some other reason, e.g. because the link
	 * just finished its initialization. */
	for (i = IEEE1394_SPEED_100; i <= old_speed; i++) {
		*speed = i;
		error = hpsb_read(ci->host, ci->nodeid, ci->generation, addr,
				  &q, sizeof(quadlet_t));
		if (error)
			break;
		*buffer = q;
		good_speed = i;
	}
	if (good_speed <= IEEE1394_SPEED_MAX) {
		HPSB_DEBUG("Speed probe of node " NODE_BUS_FMT " yields %s",
			   NODE_BUS_ARGS(ci->host, ci->nodeid),
			   hpsb_speedto_str[good_speed]);
		*speed = good_speed;
		ci->speed_unverified = 0;
		return 0;
	}
	*speed = old_speed;
	return error;
}

static int nodemgr_bus_read(struct csr1212_csr *csr, u64 addr, u16 length,
			    void *buffer, void *__ci)
{
	struct nodemgr_csr_info *ci = (struct nodemgr_csr_info*)__ci;
	int i, error;

	for (i = 1; ; i++) {
		error = hpsb_read(ci->host, ci->nodeid, ci->generation, addr,
				  buffer, length);
		if (!error) {
			ci->speed_unverified = 0;
			break;
		}
		/* Give up after 3rd failure. */
		if (i == 3)
			break;

		/* The ieee1394_core guessed the node's speed capability from
		 * the self ID.  Check whether a lower speed works. */
		if (ci->speed_unverified && length == sizeof(quadlet_t)) {
			error = nodemgr_check_speed(ci, addr, buffer);
			if (!error)
				break;
		}
		if (msleep_interruptible(334))
			return -EINTR;
	}
	return error;
}

static int nodemgr_get_max_rom(quadlet_t *bus_info_data, void *__ci)
{
	return (be32_to_cpu(bus_info_data[2]) >> 8) & 0x3;
}

static struct csr1212_bus_ops nodemgr_csr_ops = {
	.bus_read =	nodemgr_bus_read,
	.get_max_rom =	nodemgr_get_max_rom
};


/*
 * Basically what we do here is start off retrieving the bus_info block.
 * From there will fill in some info about the node, verify it is of IEEE
 * 1394 type, and that the crc checks out ok. After that we start off with
 * the root directory, and subdirectories. To do this, we retrieve the
 * quadlet header for a directory, find out the length, and retrieve the
 * complete directory entry (be it a leaf or a directory). We then process
 * it and add the info to our structure for that particular node.
 *
 * We verify CRC's along the way for each directory/block/leaf. The entire
 * node structure is generic, and simply stores the information in a way
 * that's easy to parse by the protocol interface.
 */

/*
 * The nodemgr relies heavily on the Driver Model for device callbacks and
 * driver/device mappings. The old nodemgr used to handle all this itself,
 * but now we are much simpler because of the LDM.
 */

struct host_info {
	struct hpsb_host *host;
	struct list_head list;
	struct task_struct *thread;
};

static int nodemgr_bus_match(struct device * dev, struct device_driver * drv);
static int nodemgr_uevent(struct device *dev, struct kobj_uevent_env *env);
static void nodemgr_resume_ne(struct node_entry *ne);
static void nodemgr_remove_ne(struct node_entry *ne);
static struct node_entry *find_entry_by_guid(u64 guid);

struct bus_type ieee1394_bus_type = {
	.name		= "ieee1394",
	.match		= nodemgr_bus_match,
};

static void host_cls_release(struct device *dev)
{
	put_device(&container_of((dev), struct hpsb_host, host_dev)->device);
}

struct class hpsb_host_class = {
	.name		= "ieee1394_host",
	.dev_release	= host_cls_release,
};

static void ne_cls_release(struct device *dev)
{
	put_device(&container_of((dev), struct node_entry, node_dev)->device);
}

static struct class nodemgr_ne_class = {
	.name		= "ieee1394_node",
	.dev_release	= ne_cls_release,
};

static void ud_cls_release(struct device *dev)
{
	put_device(&container_of((dev), struct unit_directory, unit_dev)->device);
}

/* The name here is only so that unit directory hotplug works with old
 * style hotplug, which only ever did unit directories anyway.
 */
static struct class nodemgr_ud_class = {
	.name		= "ieee1394",
	.dev_release	= ud_cls_release,
	.dev_uevent	= nodemgr_uevent,
};

static struct hpsb_highlevel nodemgr_highlevel;


static void nodemgr_release_ud(struct device *dev)
{
	struct unit_directory *ud = container_of(dev, struct unit_directory, device);

	if (ud->vendor_name_kv)
		csr1212_release_keyval(ud->vendor_name_kv);
	if (ud->model_name_kv)
		csr1212_release_keyval(ud->model_name_kv);

	kfree(ud);
}

static void nodemgr_release_ne(struct device *dev)
{
	struct node_entry *ne = container_of(dev, struct node_entry, device);

	if (ne->vendor_name_kv)
		csr1212_release_keyval(ne->vendor_name_kv);

	kfree(ne);
}


static void nodemgr_release_host(struct device *dev)
{
	struct hpsb_host *host = container_of(dev, struct hpsb_host, device);

	csr1212_destroy_csr(host->csr.rom);

	kfree(host);
}

static int nodemgr_ud_platform_data;

static struct device nodemgr_dev_template_ud = {
	.bus		= &ieee1394_bus_type,
	.release	= nodemgr_release_ud,
	.platform_data	= &nodemgr_ud_platform_data,
};

static struct device nodemgr_dev_template_ne = {
	.bus		= &ieee1394_bus_type,
	.release	= nodemgr_release_ne,
};

/* This dummy driver prevents the host devices from being scanned. We have no
 * useful drivers for them yet, and there would be a deadlock possible if the
 * driver core scans the host device while the host's low-level driver (i.e.
 * the host's parent device) is being removed. */
static struct device_driver nodemgr_mid_layer_driver = {
	.bus		= &ieee1394_bus_type,
	.name		= "nodemgr",
	.owner		= THIS_MODULE,
};

struct device nodemgr_dev_template_host = {
	.bus		= &ieee1394_bus_type,
	.release	= nodemgr_release_host,
};


#define fw_attr(class, class_type, field, type, format_string)		\
static ssize_t fw_show_##class##_##field (struct device *dev, struct device_attribute *attr, char *buf)\
{									\
	class_type *class;						\
	class = container_of(dev, class_type, device);			\
	return sprintf(buf, format_string, (type)class->field);		\
}									\
static struct device_attribute dev_attr_##class##_##field = {		\
	.attr = {.name = __stringify(field), .mode = S_IRUGO },		\
	.show   = fw_show_##class##_##field,				\
};

#define fw_attr_td(class, class_type, td_kv)				\
static ssize_t fw_show_##class##_##td_kv (struct device *dev, struct device_attribute *attr, char *buf)\
{									\
	int len;							\
	class_type *class = container_of(dev, class_type, device);	\
	len = (class->td_kv->value.leaf.len - 2) * sizeof(quadlet_t);	\
	memcpy(buf,							\
	       CSR1212_TEXTUAL_DESCRIPTOR_LEAF_DATA(class->td_kv),	\
	       len);							\
	while (buf[len - 1] == '\0')					\
		len--;							\
	buf[len++] = '\n';						\
	buf[len] = '\0';						\
	return len;							\
}									\
static struct device_attribute dev_attr_##class##_##td_kv = {		\
	.attr = {.name = __stringify(td_kv), .mode = S_IRUGO },		\
	.show   = fw_show_##class##_##td_kv,				\
};


#define fw_drv_attr(field, type, format_string)			\
static ssize_t fw_drv_show_##field (struct device_driver *drv, char *buf) \
{								\
	struct hpsb_protocol_driver *driver;			\
	driver = container_of(drv, struct hpsb_protocol_driver, driver); \
	return sprintf(buf, format_string, (type)driver->field);\
}								\
static struct driver_attribute driver_attr_drv_##field = {	\
	.attr = {.name = __stringify(field), .mode = S_IRUGO },	\
	.show   = fw_drv_show_##field,				\
};


static ssize_t fw_show_ne_bus_options(struct device *dev, struct device_attribute *attr, char *buf)
{
	struct node_entry *ne = container_of(dev, struct node_entry, device);

	return sprintf(buf, "IRMC(%d) CMC(%d) ISC(%d) BMC(%d) PMC(%d) GEN(%d) "
		       "LSPD(%d) MAX_REC(%d) MAX_ROM(%d) CYC_CLK_ACC(%d)\n",
		       ne->busopt.irmc,
		       ne->busopt.cmc, ne->busopt.isc, ne->busopt.bmc,
		       ne->busopt.pmc, ne->busopt.generation, ne->busopt.lnkspd,
		       ne->busopt.max_rec,
		       ne->busopt.max_rom,
		       ne->busopt.cyc_clk_acc);
}
static DEVICE_ATTR(bus_options,S_IRUGO,fw_show_ne_bus_options,NULL);


#ifdef HPSB_DEBUG_TLABELS
static ssize_t fw_show_ne_tlabels_free(struct device *dev,
				       struct device_attribute *attr, char *buf)
{
	struct node_entry *ne = container_of(dev, struct node_entry, device);
	unsigned long flags;
	unsigned long *tp = ne->host->tl_pool[NODEID_TO_NODE(ne->nodeid)].map;
	int tf;

	spin_lock_irqsave(&hpsb_tlabel_lock, flags);
	tf = 64 - bitmap_weight(tp, 64);
	spin_unlock_irqrestore(&hpsb_tlabel_lock, flags);

	return sprintf(buf, "%d\n", tf);
}
static DEVICE_ATTR(tlabels_free,S_IRUGO,fw_show_ne_tlabels_free,NULL);


static ssize_t fw_show_ne_tlabels_mask(struct device *dev,
				       struct device_attribute *attr, char *buf)
{
	struct node_entry *ne = container_of(dev, struct node_entry, device);
	unsigned long flags;
	unsigned long *tp = ne->host->tl_pool[NODEID_TO_NODE(ne->nodeid)].map;
	u64 tm;

	spin_lock_irqsave(&hpsb_tlabel_lock, flags);
#if (BITS_PER_LONG <= 32)
	tm = ((u64)tp[0] << 32) + tp[1];
#else
	tm = tp[0];
#endif
	spin_unlock_irqrestore(&hpsb_tlabel_lock, flags);

	return sprintf(buf, "0x%016llx\n", (unsigned long long)tm);
}
static DEVICE_ATTR(tlabels_mask, S_IRUGO, fw_show_ne_tlabels_mask, NULL);
#endif /* HPSB_DEBUG_TLABELS */


static ssize_t fw_set_ignore_driver(struct device *dev, struct device_attribute *attr, const char *buf, size_t count)
{
	struct unit_directory *ud = container_of(dev, struct unit_directory, device);
	int state = simple_strtoul(buf, NULL, 10);

	if (state == 1) {
		ud->ignore_driver = 1;
		device_release_driver(dev);
	} else if (state == 0)
		ud->ignore_driver = 0;

	return count;
}
static ssize_t fw_get_ignore_driver(struct device *dev, struct device_attribute *attr, char *buf)
{
	struct unit_directory *ud = container_of(dev, struct unit_directory, device);

	return sprintf(buf, "%d\n", ud->ignore_driver);
}
static DEVICE_ATTR(ignore_driver, S_IWUSR | S_IRUGO, fw_get_ignore_driver, fw_set_ignore_driver);


static ssize_t fw_set_destroy_node(struct bus_type *bus, const char *buf, size_t count)
{
	struct node_entry *ne;
	u64 guid = (u64)simple_strtoull(buf, NULL, 16);

	ne = find_entry_by_guid(guid);

	if (ne == NULL || !ne->in_limbo)
		return -EINVAL;

	nodemgr_remove_ne(ne);

	return count;
}
static ssize_t fw_get_destroy_node(struct bus_type *bus, char *buf)
{
	return sprintf(buf, "You can destroy in_limbo nodes by writing their GUID to this file\n");
}
static BUS_ATTR(destroy_node, S_IWUSR | S_IRUGO, fw_get_destroy_node, fw_set_destroy_node);


static ssize_t fw_set_rescan(struct bus_type *bus, const char *buf,
			     size_t count)
{
	int error = 0;

	if (simple_strtoul(buf, NULL, 10) == 1)
		error = bus_rescan_devices(&ieee1394_bus_type);
	return error ? error : count;
}
static ssize_t fw_get_rescan(struct bus_type *bus, char *buf)
{
	return sprintf(buf, "You can force a rescan of the bus for "
			"drivers by writing a 1 to this file\n");
}
static BUS_ATTR(rescan, S_IWUSR | S_IRUGO, fw_get_rescan, fw_set_rescan);


static ssize_t fw_set_ignore_drivers(struct bus_type *bus, const char *buf, size_t count)
{
	int state = simple_strtoul(buf, NULL, 10);

	if (state == 1)
		ignore_drivers = 1;
	else if (state == 0)
		ignore_drivers = 0;

	return count;
}
static ssize_t fw_get_ignore_drivers(struct bus_type *bus, char *buf)
{
	return sprintf(buf, "%d\n", ignore_drivers);
}
static BUS_ATTR(ignore_drivers, S_IWUSR | S_IRUGO, fw_get_ignore_drivers, fw_set_ignore_drivers);


struct bus_attribute *const fw_bus_attrs[] = {
	&bus_attr_destroy_node,
	&bus_attr_rescan,
	&bus_attr_ignore_drivers,
	NULL
};


fw_attr(ne, struct node_entry, capabilities, unsigned int, "0x%06x\n")
fw_attr(ne, struct node_entry, nodeid, unsigned int, "0x%04x\n")

fw_attr(ne, struct node_entry, vendor_id, unsigned int, "0x%06x\n")
fw_attr_td(ne, struct node_entry, vendor_name_kv)

fw_attr(ne, struct node_entry, guid, unsigned long long, "0x%016Lx\n")
fw_attr(ne, struct node_entry, guid_vendor_id, unsigned int, "0x%06x\n")
fw_attr(ne, struct node_entry, in_limbo, int, "%d\n");

static struct device_attribute *const fw_ne_attrs[] = {
	&dev_attr_ne_guid,
	&dev_attr_ne_guid_vendor_id,
	&dev_attr_ne_capabilities,
	&dev_attr_ne_vendor_id,
	&dev_attr_ne_nodeid,
	&dev_attr_bus_options,
#ifdef HPSB_DEBUG_TLABELS
	&dev_attr_tlabels_free,
	&dev_attr_tlabels_mask,
#endif
};



fw_attr(ud, struct unit_directory, address, unsigned long long, "0x%016Lx\n")
fw_attr(ud, struct unit_directory, length, int, "%d\n")
/* These are all dependent on the value being provided */
fw_attr(ud, struct unit_directory, vendor_id, unsigned int, "0x%06x\n")
fw_attr(ud, struct unit_directory, model_id, unsigned int, "0x%06x\n")
fw_attr(ud, struct unit_directory, specifier_id, unsigned int, "0x%06x\n")
fw_attr(ud, struct unit_directory, version, unsigned int, "0x%06x\n")
fw_attr_td(ud, struct unit_directory, vendor_name_kv)
fw_attr_td(ud, struct unit_directory, model_name_kv)

static struct device_attribute *const fw_ud_attrs[] = {
	&dev_attr_ud_address,
	&dev_attr_ud_length,
	&dev_attr_ignore_driver,
};


fw_attr(host, struct hpsb_host, node_count, int, "%d\n")
fw_attr(host, struct hpsb_host, selfid_count, int, "%d\n")
fw_attr(host, struct hpsb_host, nodes_active, int, "%d\n")
fw_attr(host, struct hpsb_host, in_bus_reset, int, "%d\n")
fw_attr(host, struct hpsb_host, is_root, int, "%d\n")
fw_attr(host, struct hpsb_host, is_cycmst, int, "%d\n")
fw_attr(host, struct hpsb_host, is_irm, int, "%d\n")
fw_attr(host, struct hpsb_host, is_busmgr, int, "%d\n")

static struct device_attribute *const fw_host_attrs[] = {
	&dev_attr_host_node_count,
	&dev_attr_host_selfid_count,
	&dev_attr_host_nodes_active,
	&dev_attr_host_in_bus_reset,
	&dev_attr_host_is_root,
	&dev_attr_host_is_cycmst,
	&dev_attr_host_is_irm,
	&dev_attr_host_is_busmgr,
};


static ssize_t fw_show_drv_device_ids(struct device_driver *drv, char *buf)
{
	struct hpsb_protocol_driver *driver;
	struct ieee1394_device_id *id;
	int length = 0;
	char *scratch = buf;

	driver = container_of(drv, struct hpsb_protocol_driver, driver);
	id = driver->id_table;
	if (!id)
		return 0;

	for (; id->match_flags != 0; id++) {
		int need_coma = 0;

		if (id->match_flags & IEEE1394_MATCH_VENDOR_ID) {
			length += sprintf(scratch, "vendor_id=0x%06x", id->vendor_id);
			scratch = buf + length;
			need_coma++;
		}

		if (id->match_flags & IEEE1394_MATCH_MODEL_ID) {
			length += sprintf(scratch, "%smodel_id=0x%06x",
					  need_coma++ ? "," : "",
					  id->model_id);
			scratch = buf + length;
		}

		if (id->match_flags & IEEE1394_MATCH_SPECIFIER_ID) {
			length += sprintf(scratch, "%sspecifier_id=0x%06x",
					  need_coma++ ? "," : "",
					  id->specifier_id);
			scratch = buf + length;
		}

		if (id->match_flags & IEEE1394_MATCH_VERSION) {
			length += sprintf(scratch, "%sversion=0x%06x",
					  need_coma++ ? "," : "",
					  id->version);
			scratch = buf + length;
		}

		if (need_coma) {
			*scratch++ = '\n';
			length++;
		}
	}

	return length;
}
static DRIVER_ATTR(device_ids,S_IRUGO,fw_show_drv_device_ids,NULL);


fw_drv_attr(name, const char *, "%s\n")

static struct driver_attribute *const fw_drv_attrs[] = {
	&driver_attr_drv_name,
	&driver_attr_device_ids,
};


static void nodemgr_create_drv_files(struct hpsb_protocol_driver *driver)
{
	struct device_driver *drv = &driver->driver;
	int i;

	for (i = 0; i < ARRAY_SIZE(fw_drv_attrs); i++)
		if (driver_create_file(drv, fw_drv_attrs[i]))
			goto fail;
	return;
fail:
	HPSB_ERR("Failed to add sysfs attribute");
}


static void nodemgr_remove_drv_files(struct hpsb_protocol_driver *driver)
{
	struct device_driver *drv = &driver->driver;
	int i;

	for (i = 0; i < ARRAY_SIZE(fw_drv_attrs); i++)
		driver_remove_file(drv, fw_drv_attrs[i]);
}


static void nodemgr_create_ne_dev_files(struct node_entry *ne)
{
	struct device *dev = &ne->device;
	int i;

	for (i = 0; i < ARRAY_SIZE(fw_ne_attrs); i++)
		if (device_create_file(dev, fw_ne_attrs[i]))
			goto fail;
	return;
fail:
	HPSB_ERR("Failed to add sysfs attribute");
}


static void nodemgr_create_host_dev_files(struct hpsb_host *host)
{
	struct device *dev = &host->device;
	int i;

	for (i = 0; i < ARRAY_SIZE(fw_host_attrs); i++)
		if (device_create_file(dev, fw_host_attrs[i]))
			goto fail;
	return;
fail:
	HPSB_ERR("Failed to add sysfs attribute");
}


static struct node_entry *find_entry_by_nodeid(struct hpsb_host *host,
					       nodeid_t nodeid);

static void nodemgr_update_host_dev_links(struct hpsb_host *host)
{
	struct device *dev = &host->device;
	struct node_entry *ne;

	sysfs_remove_link(&dev->kobj, "irm_id");
	sysfs_remove_link(&dev->kobj, "busmgr_id");
	sysfs_remove_link(&dev->kobj, "host_id");

	if ((ne = find_entry_by_nodeid(host, host->irm_id)) &&
	    sysfs_create_link(&dev->kobj, &ne->device.kobj, "irm_id"))
		goto fail;
	if ((ne = find_entry_by_nodeid(host, host->busmgr_id)) &&
	    sysfs_create_link(&dev->kobj, &ne->device.kobj, "busmgr_id"))
		goto fail;
	if ((ne = find_entry_by_nodeid(host, host->node_id)) &&
	    sysfs_create_link(&dev->kobj, &ne->device.kobj, "host_id"))
		goto fail;
	return;
fail:
	HPSB_ERR("Failed to update sysfs attributes for host %d", host->id);
}

static void nodemgr_create_ud_dev_files(struct unit_directory *ud)
{
	struct device *dev = &ud->device;
	int i;

	for (i = 0; i < ARRAY_SIZE(fw_ud_attrs); i++)
		if (device_create_file(dev, fw_ud_attrs[i]))
			goto fail;
	if (ud->flags & UNIT_DIRECTORY_SPECIFIER_ID)
		if (device_create_file(dev, &dev_attr_ud_specifier_id))
			goto fail;
	if (ud->flags & UNIT_DIRECTORY_VERSION)
		if (device_create_file(dev, &dev_attr_ud_version))
			goto fail;
	if (ud->flags & UNIT_DIRECTORY_VENDOR_ID) {
		if (device_create_file(dev, &dev_attr_ud_vendor_id))
			goto fail;
		if (ud->vendor_name_kv &&
		    device_create_file(dev, &dev_attr_ud_vendor_name_kv))
			goto fail;
	}
	if (ud->flags & UNIT_DIRECTORY_MODEL_ID) {
		if (device_create_file(dev, &dev_attr_ud_model_id))
			goto fail;
		if (ud->model_name_kv &&
		    device_create_file(dev, &dev_attr_ud_model_name_kv))
			goto fail;
	}
	return;
fail:
	HPSB_ERR("Failed to add sysfs attribute");
}


static int nodemgr_bus_match(struct device * dev, struct device_driver * drv)
{
	struct hpsb_protocol_driver *driver;
	struct unit_directory *ud;
	struct ieee1394_device_id *id;

	/* We only match unit directories */
	if (dev->platform_data != &nodemgr_ud_platform_data)
		return 0;

	ud = container_of(dev, struct unit_directory, device);
	if (ud->ne->in_limbo || ud->ignore_driver)
		return 0;

	/* We only match drivers of type hpsb_protocol_driver */
	if (drv == &nodemgr_mid_layer_driver)
		return 0;

	driver = container_of(drv, struct hpsb_protocol_driver, driver);
	id = driver->id_table;
	if (!id)
		return 0;

	for (; id->match_flags != 0; id++) {
		if ((id->match_flags & IEEE1394_MATCH_VENDOR_ID) &&
		    id->vendor_id != ud->vendor_id)
			continue;

		if ((id->match_flags & IEEE1394_MATCH_MODEL_ID) &&
		    id->model_id != ud->model_id)
			continue;

		if ((id->match_flags & IEEE1394_MATCH_SPECIFIER_ID) &&
		    id->specifier_id != ud->specifier_id)
			continue;

		if ((id->match_flags & IEEE1394_MATCH_VERSION) &&
		    id->version != ud->version)
			continue;

		return 1;
	}

	return 0;
}


static DEFINE_MUTEX(nodemgr_serialize_remove_uds);

static int __match_ne(struct device *dev, void *data)
{
	struct unit_directory *ud;
	struct node_entry *ne = (struct node_entry *)data;

	ud = container_of(dev, struct unit_directory, unit_dev);
	return ud->ne == ne;
}

static void nodemgr_remove_uds(struct node_entry *ne)
{
	struct device *dev;
	struct unit_directory *ud;

	/* Use class_find device to iterate the devices. Since this code
	 * may be called from other contexts besides the knodemgrds,
	 * protect it by nodemgr_serialize_remove_uds.
	 */
	mutex_lock(&nodemgr_serialize_remove_uds);
	for (;;) {
		dev = class_find_device(&nodemgr_ud_class, NULL, ne,
					__match_ne);
		if (!dev)
			break;
		ud = container_of(dev, struct unit_directory, unit_dev);
		put_device(dev);
		device_unregister(&ud->unit_dev);
		device_unregister(&ud->device);
	}
	mutex_unlock(&nodemgr_serialize_remove_uds);
}


static void nodemgr_remove_ne(struct node_entry *ne)
{
	struct device *dev;

	dev = get_device(&ne->device);
	if (!dev)
		return;

	HPSB_DEBUG("Node removed: ID:BUS[" NODE_BUS_FMT "]  GUID[%016Lx]",
		   NODE_BUS_ARGS(ne->host, ne->nodeid), (unsigned long long)ne->guid);
	nodemgr_remove_uds(ne);

	device_unregister(&ne->node_dev);
	device_unregister(dev);

	put_device(dev);
}

static int __nodemgr_remove_host_dev(struct device *dev, void *data)
{
	if (dev->bus == &ieee1394_bus_type)
		nodemgr_remove_ne(container_of(dev, struct node_entry,
				  device));
	return 0;
}

static void nodemgr_remove_host_dev(struct device *dev)
{
	WARN_ON(device_for_each_child(dev, NULL, __nodemgr_remove_host_dev));
	sysfs_remove_link(&dev->kobj, "irm_id");
	sysfs_remove_link(&dev->kobj, "busmgr_id");
	sysfs_remove_link(&dev->kobj, "host_id");
}


static void nodemgr_update_bus_options(struct node_entry *ne)
{
#ifdef CONFIG_IEEE1394_VERBOSEDEBUG
	static const u16 mr[] = { 4, 64, 1024, 0};
#endif
	quadlet_t busoptions = be32_to_cpu(ne->csr->bus_info_data[2]);

	ne->busopt.irmc		= (busoptions >> 31) & 1;
	ne->busopt.cmc		= (busoptions >> 30) & 1;
	ne->busopt.isc		= (busoptions >> 29) & 1;
	ne->busopt.bmc		= (busoptions >> 28) & 1;
	ne->busopt.pmc		= (busoptions >> 27) & 1;
	ne->busopt.cyc_clk_acc	= (busoptions >> 16) & 0xff;
	ne->busopt.max_rec	= 1 << (((busoptions >> 12) & 0xf) + 1);
	ne->busopt.max_rom	= (busoptions >> 8) & 0x3;
	ne->busopt.generation	= (busoptions >> 4) & 0xf;
	ne->busopt.lnkspd	= busoptions & 0x7;

	HPSB_VERBOSE("NodeMgr: raw=0x%08x irmc=%d cmc=%d isc=%d bmc=%d pmc=%d "
		     "cyc_clk_acc=%d max_rec=%d max_rom=%d gen=%d lspd=%d",
		     busoptions, ne->busopt.irmc, ne->busopt.cmc,
		     ne->busopt.isc, ne->busopt.bmc, ne->busopt.pmc,
		     ne->busopt.cyc_clk_acc, ne->busopt.max_rec,
		     mr[ne->busopt.max_rom],
		     ne->busopt.generation, ne->busopt.lnkspd);
}


static struct node_entry *nodemgr_create_node(octlet_t guid, struct csr1212_csr *csr,
					      struct host_info *hi, nodeid_t nodeid,
					      unsigned int generation)
{
	struct hpsb_host *host = hi->host;
	struct node_entry *ne;

	ne = kzalloc(sizeof(*ne), GFP_KERNEL);
	if (!ne)
		goto fail_alloc;

	ne->host = host;
	ne->nodeid = nodeid;
	ne->generation = generation;
	ne->needs_probe = true;

	ne->guid = guid;
	ne->guid_vendor_id = (guid >> 40) & 0xffffff;
	ne->csr = csr;

	memcpy(&ne->device, &nodemgr_dev_template_ne,
	       sizeof(ne->device));
	ne->device.parent = &host->device;
	snprintf(ne->device.bus_id, BUS_ID_SIZE, "%016Lx",
		 (unsigned long long)(ne->guid));

	ne->node_dev.parent = &ne->device;
	ne->node_dev.class = &nodemgr_ne_class;
	snprintf(ne->node_dev.bus_id, BUS_ID_SIZE, "%016Lx",
		(unsigned long long)(ne->guid));

	if (device_register(&ne->device))
		goto fail_devreg;
	if (device_register(&ne->node_dev))
		goto fail_classdevreg;
	get_device(&ne->device);

	nodemgr_create_ne_dev_files(ne);

	nodemgr_update_bus_options(ne);

	HPSB_DEBUG("%s added: ID:BUS[" NODE_BUS_FMT "]  GUID[%016Lx]",
		   (host->node_id == nodeid) ? "Host" : "Node",
		   NODE_BUS_ARGS(host, nodeid), (unsigned long long)guid);

	return ne;

fail_classdevreg:
	device_unregister(&ne->device);
fail_devreg:
	kfree(ne);
fail_alloc:
	HPSB_ERR("Failed to create node ID:BUS[" NODE_BUS_FMT "]  GUID[%016Lx]",
		 NODE_BUS_ARGS(host, nodeid), (unsigned long long)guid);

	return NULL;
}

static int __match_ne_guid(struct device *dev, void *data)
{
	struct node_entry *ne;
	u64 *guid = (u64 *)data;

	ne = container_of(dev, struct node_entry, node_dev);
	return ne->guid == *guid;
}

static struct node_entry *find_entry_by_guid(u64 guid)
{
	struct device *dev;
	struct node_entry *ne;

	dev = class_find_device(&nodemgr_ne_class, NULL, &guid,
				__match_ne_guid);
	if (!dev)
		return NULL;
	ne = container_of(dev, struct node_entry, node_dev);
	put_device(dev);

	return ne;
}

struct match_nodeid_param {
	struct hpsb_host *host;
	nodeid_t nodeid;
};

static int __match_ne_nodeid(struct device *dev, void *data)
{
	int found = 0;
	struct node_entry *ne;
	struct match_nodeid_param *param = (struct match_nodeid_param *)data;

	if (!dev)
		goto ret;
	ne = container_of(dev, struct node_entry, node_dev);
	if (ne->host == param->host && ne->nodeid == param->nodeid)
		found = 1;
ret:
	return found;
}

static struct node_entry *find_entry_by_nodeid(struct hpsb_host *host,
					       nodeid_t nodeid)
{
	struct device *dev;
	struct node_entry *ne;
	struct match_nodeid_param param;

	param.host = host;
	param.nodeid = nodeid;

	dev = class_find_device(&nodemgr_ne_class, NULL, &param,
				__match_ne_nodeid);
	if (!dev)
		return NULL;
	ne = container_of(dev, struct node_entry, node_dev);
	put_device(dev);

	return ne;
}


static void nodemgr_register_device(struct node_entry *ne, 
	struct unit_directory *ud, struct device *parent)
{
	memcpy(&ud->device, &nodemgr_dev_template_ud,
	       sizeof(ud->device));

	ud->device.parent = parent;

	snprintf(ud->device.bus_id, BUS_ID_SIZE, "%s-%u",
		 ne->device.bus_id, ud->id);

	ud->unit_dev.parent = &ud->device;
	ud->unit_dev.class = &nodemgr_ud_class;
	snprintf(ud->unit_dev.bus_id, BUS_ID_SIZE, "%s-%u",
		 ne->device.bus_id, ud->id);

	if (device_register(&ud->device))
		goto fail_devreg;
	if (device_register(&ud->unit_dev))
		goto fail_classdevreg;
	get_device(&ud->device);

	nodemgr_create_ud_dev_files(ud);

	return;

fail_classdevreg:
	device_unregister(&ud->device);
fail_devreg:
	HPSB_ERR("Failed to create unit %s", ud->device.bus_id);
}	


/* This implementation currently only scans the config rom and its
 * immediate unit directories looking for software_id and
 * software_version entries, in order to get driver autoloading working. */
static struct unit_directory *nodemgr_process_unit_directory
	(struct host_info *hi, struct node_entry *ne, struct csr1212_keyval *ud_kv,
	 unsigned int *id, struct unit_directory *parent)
{
	struct unit_directory *ud;
	struct unit_directory *ud_child = NULL;
	struct csr1212_dentry *dentry;
	struct csr1212_keyval *kv;
	u8 last_key_id = 0;

	ud = kzalloc(sizeof(*ud), GFP_KERNEL);
	if (!ud)
		goto unit_directory_error;

	ud->ne = ne;
	ud->ignore_driver = ignore_drivers;
	ud->address = ud_kv->offset + CSR1212_REGISTER_SPACE_BASE;
	ud->directory_id = ud->address & 0xffffff;
	ud->ud_kv = ud_kv;
	ud->id = (*id)++;

	csr1212_for_each_dir_entry(ne->csr, kv, ud_kv, dentry) {
		switch (kv->key.id) {
		case CSR1212_KV_ID_VENDOR:
			if (kv->key.type == CSR1212_KV_TYPE_IMMEDIATE) {
				ud->vendor_id = kv->value.immediate;
				ud->flags |= UNIT_DIRECTORY_VENDOR_ID;
			}
			break;

		case CSR1212_KV_ID_MODEL:
			ud->model_id = kv->value.immediate;
			ud->flags |= UNIT_DIRECTORY_MODEL_ID;
			break;

		case CSR1212_KV_ID_SPECIFIER_ID:
			ud->specifier_id = kv->value.immediate;
			ud->flags |= UNIT_DIRECTORY_SPECIFIER_ID;
			break;

		case CSR1212_KV_ID_VERSION:
			ud->version = kv->value.immediate;
			ud->flags |= UNIT_DIRECTORY_VERSION;
			break;

		case CSR1212_KV_ID_DESCRIPTOR:
			if (kv->key.type == CSR1212_KV_TYPE_LEAF &&
			    CSR1212_DESCRIPTOR_LEAF_TYPE(kv) == 0 &&
			    CSR1212_DESCRIPTOR_LEAF_SPECIFIER_ID(kv) == 0 &&
			    CSR1212_TEXTUAL_DESCRIPTOR_LEAF_WIDTH(kv) == 0 &&
			    CSR1212_TEXTUAL_DESCRIPTOR_LEAF_CHAR_SET(kv) == 0 &&
			    CSR1212_TEXTUAL_DESCRIPTOR_LEAF_LANGUAGE(kv) == 0) {
				switch (last_key_id) {
				case CSR1212_KV_ID_VENDOR:
					csr1212_keep_keyval(kv);
					ud->vendor_name_kv = kv;
					break;

				case CSR1212_KV_ID_MODEL:
					csr1212_keep_keyval(kv);
					ud->model_name_kv = kv;
					break;

				}
			} /* else if (kv->key.type == CSR1212_KV_TYPE_DIRECTORY) ... */
			break;

		case CSR1212_KV_ID_DEPENDENT_INFO:
			/* Logical Unit Number */
			if (kv->key.type == CSR1212_KV_TYPE_IMMEDIATE) {
				if (ud->flags & UNIT_DIRECTORY_HAS_LUN) {
					ud_child = kmemdup(ud, sizeof(*ud_child), GFP_KERNEL);
					if (!ud_child)
						goto unit_directory_error;
					nodemgr_register_device(ne, ud_child, &ne->device);
					ud_child = NULL;
					
					ud->id = (*id)++;
				}
				ud->lun = kv->value.immediate;
				ud->flags |= UNIT_DIRECTORY_HAS_LUN;

			/* Logical Unit Directory */
			} else if (kv->key.type == CSR1212_KV_TYPE_DIRECTORY) {
				/* This should really be done in SBP2 as this is
				 * doing SBP2 specific parsing.
				 */
				
				/* first register the parent unit */
				ud->flags |= UNIT_DIRECTORY_HAS_LUN_DIRECTORY;
				if (ud->device.bus != &ieee1394_bus_type)
					nodemgr_register_device(ne, ud, &ne->device);
				
				/* process the child unit */
				ud_child = nodemgr_process_unit_directory(hi, ne, kv, id, ud);

				if (ud_child == NULL)
					break;
				
				/* inherit unspecified values, the driver core picks it up */
				if ((ud->flags & UNIT_DIRECTORY_MODEL_ID) &&
				    !(ud_child->flags & UNIT_DIRECTORY_MODEL_ID))
				{
					ud_child->flags |=  UNIT_DIRECTORY_MODEL_ID;
					ud_child->model_id = ud->model_id;
				}
				if ((ud->flags & UNIT_DIRECTORY_SPECIFIER_ID) &&
				    !(ud_child->flags & UNIT_DIRECTORY_SPECIFIER_ID))
				{
					ud_child->flags |=  UNIT_DIRECTORY_SPECIFIER_ID;
					ud_child->specifier_id = ud->specifier_id;
				}
				if ((ud->flags & UNIT_DIRECTORY_VERSION) &&
				    !(ud_child->flags & UNIT_DIRECTORY_VERSION))
				{
					ud_child->flags |=  UNIT_DIRECTORY_VERSION;
					ud_child->version = ud->version;
				}
				
				/* register the child unit */
				ud_child->flags |= UNIT_DIRECTORY_LUN_DIRECTORY;
				nodemgr_register_device(ne, ud_child, &ud->device);
			}

			break;

		case CSR1212_KV_ID_DIRECTORY_ID:
			ud->directory_id = kv->value.immediate;
			break;

		default:
			break;
		}
		last_key_id = kv->key.id;
	}
	
	/* do not process child units here and only if not already registered */
	if (!parent && ud->device.bus != &ieee1394_bus_type)
		nodemgr_register_device(ne, ud, &ne->device);

	return ud;

unit_directory_error:
	kfree(ud);
	return NULL;
}


static void nodemgr_process_root_directory(struct host_info *hi, struct node_entry *ne)
{
	unsigned int ud_id = 0;
	struct csr1212_dentry *dentry;
	struct csr1212_keyval *kv, *vendor_name_kv = NULL;
	u8 last_key_id = 0;

	ne->needs_probe = false;

	csr1212_for_each_dir_entry(ne->csr, kv, ne->csr->root_kv, dentry) {
		switch (kv->key.id) {
		case CSR1212_KV_ID_VENDOR:
			ne->vendor_id = kv->value.immediate;
			break;

		case CSR1212_KV_ID_NODE_CAPABILITIES:
			ne->capabilities = kv->value.immediate;
			break;

		case CSR1212_KV_ID_UNIT:
			nodemgr_process_unit_directory(hi, ne, kv, &ud_id, NULL);
			break;

		case CSR1212_KV_ID_DESCRIPTOR:
			if (last_key_id == CSR1212_KV_ID_VENDOR) {
				if (kv->key.type == CSR1212_KV_TYPE_LEAF &&
				    CSR1212_DESCRIPTOR_LEAF_TYPE(kv) == 0 &&
				    CSR1212_DESCRIPTOR_LEAF_SPECIFIER_ID(kv) == 0 &&
				    CSR1212_TEXTUAL_DESCRIPTOR_LEAF_WIDTH(kv) == 0 &&
				    CSR1212_TEXTUAL_DESCRIPTOR_LEAF_CHAR_SET(kv) == 0 &&
				    CSR1212_TEXTUAL_DESCRIPTOR_LEAF_LANGUAGE(kv) == 0) {
					csr1212_keep_keyval(kv);
					vendor_name_kv = kv;
				}
			}
			break;
		}
		last_key_id = kv->key.id;
	}

	if (ne->vendor_name_kv) {
		kv = ne->vendor_name_kv;
		ne->vendor_name_kv = vendor_name_kv;
		csr1212_release_keyval(kv);
	} else if (vendor_name_kv) {
		ne->vendor_name_kv = vendor_name_kv;
		if (device_create_file(&ne->device,
				       &dev_attr_ne_vendor_name_kv) != 0)
			HPSB_ERR("Failed to add sysfs attribute");
	}
}

#ifdef CONFIG_HOTPLUG

static int nodemgr_uevent(struct device *dev, struct kobj_uevent_env *env)
{
	struct unit_directory *ud;
	int retval = 0;
	/* ieee1394:venNmoNspNverN */
	char buf[8 + 1 + 3 + 8 + 2 + 8 + 2 + 8 + 3 + 8 + 1];

	if (!dev)
		return -ENODEV;

	ud = container_of(dev, struct unit_directory, unit_dev);

	if (ud->ne->in_limbo || ud->ignore_driver)
		return -ENODEV;

#define PUT_ENVP(fmt,val) 					\
do {								\
	retval = add_uevent_var(env, fmt, val);		\
	if (retval)						\
		return retval;					\
} while (0)

	PUT_ENVP("VENDOR_ID=%06x", ud->vendor_id);
	PUT_ENVP("MODEL_ID=%06x", ud->model_id);
	PUT_ENVP("GUID=%016Lx", (unsigned long long)ud->ne->guid);
	PUT_ENVP("SPECIFIER_ID=%06x", ud->specifier_id);
	PUT_ENVP("VERSION=%06x", ud->version);
	snprintf(buf, sizeof(buf), "ieee1394:ven%08Xmo%08Xsp%08Xver%08X",
			ud->vendor_id,
			ud->model_id,
			ud->specifier_id,
			ud->version);
	PUT_ENVP("MODALIAS=%s", buf);

#undef PUT_ENVP

	return 0;
}

#else

static int nodemgr_uevent(struct device *dev, struct kobj_uevent_env *env)
{
	return -ENODEV;
}

#endif /* CONFIG_HOTPLUG */


int __hpsb_register_protocol(struct hpsb_protocol_driver *drv,
			     struct module *owner)
{
	int error;

	drv->driver.bus = &ieee1394_bus_type;
	drv->driver.owner = owner;
	drv->driver.name = drv->name;

	/* This will cause a probe for devices */
	error = driver_register(&drv->driver);
	if (!error)
		nodemgr_create_drv_files(drv);
	return error;
}

void hpsb_unregister_protocol(struct hpsb_protocol_driver *driver)
{
	nodemgr_remove_drv_files(driver);
	/* This will subsequently disconnect all devices that our driver
	 * is attached to. */
	driver_unregister(&driver->driver);
}


/*
 * This function updates nodes that were present on the bus before the
 * reset and still are after the reset.  The nodeid and the config rom
 * may have changed, and the drivers managing this device must be
 * informed that this device just went through a bus reset, to allow
 * the to take whatever actions required.
 */
static void nodemgr_update_node(struct node_entry *ne, struct csr1212_csr *csr,
				struct host_info *hi, nodeid_t nodeid,
				unsigned int generation)
{
	if (ne->nodeid != nodeid) {
		HPSB_DEBUG("Node changed: " NODE_BUS_FMT " -> " NODE_BUS_FMT,
			   NODE_BUS_ARGS(ne->host, ne->nodeid),
			   NODE_BUS_ARGS(ne->host, nodeid));
		ne->nodeid = nodeid;
	}

	if (ne->busopt.generation != ((be32_to_cpu(csr->bus_info_data[2]) >> 4) & 0xf)) {
		kfree(ne->csr->private);
		csr1212_destroy_csr(ne->csr);
		ne->csr = csr;

		/* If the node's configrom generation has changed, we
		 * unregister all the unit directories. */
		nodemgr_remove_uds(ne);

		nodemgr_update_bus_options(ne);

		/* Mark the node as new, so it gets re-probed */
		ne->needs_probe = true;
	} else {
		/* old cache is valid, so update its generation */
		struct nodemgr_csr_info *ci = ne->csr->private;
		ci->generation = generation;
		/* free the partially filled now unneeded new cache */
		kfree(csr->private);
		csr1212_destroy_csr(csr);
	}

	if (ne->in_limbo)
		nodemgr_resume_ne(ne);

	/* Mark the node current */
	ne->generation = generation;
}



static void nodemgr_node_scan_one(struct host_info *hi,
				  nodeid_t nodeid, int generation)
{
	struct hpsb_host *host = hi->host;
	struct node_entry *ne;
	octlet_t guid;
	struct csr1212_csr *csr;
	struct nodemgr_csr_info *ci;
	u8 *speed;

	ci = kmalloc(sizeof(*ci), GFP_KERNEL);
	if (!ci)
		return;

	ci->host = host;
	ci->nodeid = nodeid;
	ci->generation = generation;

	/* Prepare for speed probe which occurs when reading the ROM */
	speed = &(host->speed[NODEID_TO_NODE(nodeid)]);
	if (*speed > host->csr.lnk_spd)
		*speed = host->csr.lnk_spd;
	ci->speed_unverified = *speed > IEEE1394_SPEED_100;

	/* We need to detect when the ConfigROM's generation has changed,
	 * so we only update the node's info when it needs to be.  */

	csr = csr1212_create_csr(&nodemgr_csr_ops, 5 * sizeof(quadlet_t), ci);
	if (!csr || csr1212_parse_csr(csr) != CSR1212_SUCCESS) {
		HPSB_ERR("Error parsing configrom for node " NODE_BUS_FMT,
			 NODE_BUS_ARGS(host, nodeid));
		if (csr)
			csr1212_destroy_csr(csr);
		kfree(ci);
		return;
	}

	if (csr->bus_info_data[1] != IEEE1394_BUSID_MAGIC) {
		/* This isn't a 1394 device, but we let it slide. There
		 * was a report of a device with broken firmware which
		 * reported '2394' instead of '1394', which is obviously a
		 * mistake. One would hope that a non-1394 device never
		 * gets connected to Firewire bus. If someone does, we
		 * shouldn't be held responsible, so we'll allow it with a
		 * warning.  */
		HPSB_WARN("Node " NODE_BUS_FMT " has invalid busID magic [0x%08x]",
			  NODE_BUS_ARGS(host, nodeid), csr->bus_info_data[1]);
	}

	guid = ((u64)be32_to_cpu(csr->bus_info_data[3]) << 32) | be32_to_cpu(csr->bus_info_data[4]);
	ne = find_entry_by_guid(guid);

	if (ne && ne->host != host && ne->in_limbo) {
		/* Must have moved this device from one host to another */
		nodemgr_remove_ne(ne);
		ne = NULL;
	}

	if (!ne)
		nodemgr_create_node(guid, csr, hi, nodeid, generation);
	else
		nodemgr_update_node(ne, csr, hi, nodeid, generation);
}


static void nodemgr_node_scan(struct host_info *hi, int generation)
{
	int count;
	struct hpsb_host *host = hi->host;
	struct selfid *sid = (struct selfid *)host->topology_map;
	nodeid_t nodeid = LOCAL_BUS;

	/* Scan each node on the bus */
	for (count = host->selfid_count; count; count--, sid++) {
		if (sid->extended)
			continue;

		if (!sid->link_active) {
			nodeid++;
			continue;
		}
		nodemgr_node_scan_one(hi, nodeid++, generation);
	}
}

static int __nodemgr_driver_suspend(struct device *dev, void *data)
{
	struct unit_directory *ud;
	struct device_driver *drv;
	struct node_entry *ne = (struct node_entry *)data;
	int error;

	ud = container_of(dev, struct unit_directory, unit_dev);
	if (ud->ne == ne) {
		drv = get_driver(ud->device.driver);
		if (drv) {
			error = 1; /* release if suspend is not implemented */
			if (drv->suspend) {
				down(&ud->device.sem);
				error = drv->suspend(&ud->device, PMSG_SUSPEND);
				up(&ud->device.sem);
			}
			if (error)
				device_release_driver(&ud->device);
			put_driver(drv);
		}
	}

	return 0;
}

static int __nodemgr_driver_resume(struct device *dev, void *data)
{
	struct unit_directory *ud;
	struct device_driver *drv;
	struct node_entry *ne = (struct node_entry *)data;

	ud = container_of(dev, struct unit_directory, unit_dev);
	if (ud->ne == ne) {
		drv = get_driver(ud->device.driver);
		if (drv) {
			if (drv->resume) {
				down(&ud->device.sem);
				drv->resume(&ud->device);
				up(&ud->device.sem);
			}
			put_driver(drv);
		}
	}

	return 0;
}

static void nodemgr_suspend_ne(struct node_entry *ne)
{
	HPSB_DEBUG("Node suspended: ID:BUS[" NODE_BUS_FMT "]  GUID[%016Lx]",
		   NODE_BUS_ARGS(ne->host, ne->nodeid),
		   (unsigned long long)ne->guid);

	ne->in_limbo = 1;
	WARN_ON(device_create_file(&ne->device, &dev_attr_ne_in_limbo));

	class_for_each_device(&nodemgr_ud_class, NULL, ne,
			      __nodemgr_driver_suspend);
}


static void nodemgr_resume_ne(struct node_entry *ne)
{
	ne->in_limbo = 0;
	device_remove_file(&ne->device, &dev_attr_ne_in_limbo);

	class_for_each_device(&nodemgr_ud_class, NULL, ne,
			      __nodemgr_driver_resume);
	HPSB_DEBUG("Node resumed: ID:BUS[" NODE_BUS_FMT "]  GUID[%016Lx]",
		   NODE_BUS_ARGS(ne->host, ne->nodeid), (unsigned long long)ne->guid);
}

static int __nodemgr_update_pdrv(struct device *dev, void *data)
{
	struct unit_directory *ud;
	struct device_driver *drv;
	struct hpsb_protocol_driver *pdrv;
	struct node_entry *ne = (struct node_entry *)data;
	int error;

	ud = container_of(dev, struct unit_directory, unit_dev);
	if (ud->ne == ne) {
		drv = get_driver(ud->device.driver);
		if (drv) {
			error = 0;
			pdrv = container_of(drv, struct hpsb_protocol_driver,
					    driver);
			if (pdrv->update) {
				down(&ud->device.sem);
				error = pdrv->update(ud);
				up(&ud->device.sem);
			}
			if (error)
				device_release_driver(&ud->device);
			put_driver(drv);
		}
	}

	return 0;
}

static void nodemgr_update_pdrv(struct node_entry *ne)
{
	class_for_each_device(&nodemgr_ud_class, NULL, ne,
			      __nodemgr_update_pdrv);
}


/* Write the BROADCAST_CHANNEL as per IEEE1394a 8.3.2.3.11 and 8.4.2.3.  This
 * seems like an optional service but in the end it is practically mandatory
 * as a consequence of these clauses.
 *
 * Note that we cannot do a broadcast write to all nodes at once because some
 * pre-1394a devices would hang. */
static void nodemgr_irm_write_bc(struct node_entry *ne, int generation)
{
	const u64 bc_addr = (CSR_REGISTER_BASE | CSR_BROADCAST_CHANNEL);
	quadlet_t bc_remote, bc_local;
	int error;

	if (!ne->host->is_irm || ne->generation != generation ||
	    ne->nodeid == ne->host->node_id)
		return;

	bc_local = cpu_to_be32(ne->host->csr.broadcast_channel);

	/* Check if the register is implemented and 1394a compliant. */
	error = hpsb_read(ne->host, ne->nodeid, generation, bc_addr, &bc_remote,
			  sizeof(bc_remote));
	if (!error && bc_remote & cpu_to_be32(0x80000000) &&
	    bc_remote != bc_local)
		hpsb_node_write(ne, bc_addr, &bc_local, sizeof(bc_local));
}


static void nodemgr_probe_ne(struct host_info *hi, struct node_entry *ne, int generation)
{
	struct device *dev;

	if (ne->host != hi->host || ne->in_limbo)
		return;

	dev = get_device(&ne->device);
	if (!dev)
		return;

	nodemgr_irm_write_bc(ne, generation);

	/* If "needs_probe", then this is either a new or changed node we
	 * rescan totally. If the generation matches for an existing node
	 * (one that existed prior to the bus reset) we send update calls
	 * down to the drivers. Otherwise, this is a dead node and we
	 * suspend it. */
	if (ne->needs_probe)
		nodemgr_process_root_directory(hi, ne);
	else if (ne->generation == generation)
		nodemgr_update_pdrv(ne);
	else
		nodemgr_suspend_ne(ne);

	put_device(dev);
}

struct probe_param {
	struct host_info *hi;
	int generation;
	bool probe_now;
};

static int node_probe(struct device *dev, void *data)
{
	struct probe_param *p = data;
	struct node_entry *ne;

	ne = container_of(dev, struct node_entry, node_dev);
	if (ne->needs_probe == p->probe_now)
		nodemgr_probe_ne(p->hi, ne, p->generation);
	return 0;
}

static void nodemgr_node_probe(struct host_info *hi, int generation)
{
	struct hpsb_host *host = hi->host;
	struct probe_param p;

	p.hi = hi;
	p.generation = generation;
	/* Do some processing of the nodes we've probed. This pulls them
	 * into the sysfs layer if needed, and can result in processing of
	 * unit-directories, or just updating the node and it's
	 * unit-directories.
	 *
	 * Run updates before probes. Usually, updates are time-critical
	 * while probes are time-consuming. (Well, those probes need some
	 * improvement...) */

	p.probe_now = false;
	class_for_each_device(&nodemgr_ne_class, NULL, &p, node_probe);
	p.probe_now = true;
	class_for_each_device(&nodemgr_ne_class, NULL, &p, node_probe);

	/* If we had a bus reset while we were scanning the bus, it is
	 * possible that we did not probe all nodes.  In that case, we
	 * skip the clean up for now, since we could remove nodes that
	 * were still on the bus.  Another bus scan is pending which will
	 * do the clean up eventually.
	 *
	 * Now let's tell the bus to rescan our devices. This may seem
	 * like overhead, but the driver-model core will only scan a
	 * device for a driver when either the device is added, or when a
	 * new driver is added. A bus reset is a good reason to rescan
	 * devices that were there before.  For example, an sbp2 device
	 * may become available for login, if the host that held it was
	 * just removed.  */

	if (generation == get_hpsb_generation(host))
		if (bus_rescan_devices(&ieee1394_bus_type))
			HPSB_DEBUG("bus_rescan_devices had an error");
}

static int nodemgr_send_resume_packet(struct hpsb_host *host)
{
	struct hpsb_packet *packet;
	int error = -ENOMEM;

	packet = hpsb_make_phypacket(host,
			EXTPHYPACKET_TYPE_RESUME |
			NODEID_TO_NODE(host->node_id) << PHYPACKET_PORT_SHIFT);
	if (packet) {
		packet->no_waiter = 1;
		packet->generation = get_hpsb_generation(host);
		error = hpsb_send_packet(packet);
	}
	if (error)
		HPSB_WARN("fw-host%d: Failed to broadcast resume packet",
			  host->id);
	return error;
}

/* Perform a few high-level IRM responsibilities. */
static int nodemgr_do_irm_duties(struct hpsb_host *host, int cycles)
{
	quadlet_t bc;

	/* if irm_id == -1 then there is no IRM on this bus */
	if (!host->is_irm || host->irm_id == (nodeid_t)-1)
		return 1;

	/* We are a 1394a-2000 compliant IRM. Set the validity bit. */
	host->csr.broadcast_channel |= 0x40000000;

	/* If there is no bus manager then we should set the root node's
	 * force_root bit to promote bus stability per the 1394
	 * spec. (8.4.2.6) */
	if (host->busmgr_id == 0xffff && host->node_count > 1)
	{
		u16 root_node = host->node_count - 1;

		/* get cycle master capability flag from root node */
		if (host->is_cycmst ||
		    (!hpsb_read(host, LOCAL_BUS | root_node, get_hpsb_generation(host),
				(CSR_REGISTER_BASE + CSR_CONFIG_ROM + 2 * sizeof(quadlet_t)),
				&bc, sizeof(quadlet_t)) &&
		     be32_to_cpu(bc) & 1 << CSR_CMC_SHIFT))
			hpsb_send_phy_config(host, root_node, -1);
		else {
			HPSB_DEBUG("The root node is not cycle master capable; "
				   "selecting a new root node and resetting...");

			if (cycles >= 5) {
				/* Oh screw it! Just leave the bus as it is */
				HPSB_DEBUG("Stopping reset loop for IRM sanity");
				return 1;
			}

			hpsb_send_phy_config(host, NODEID_TO_NODE(host->node_id), -1);
			hpsb_reset_bus(host, LONG_RESET_FORCE_ROOT);

			return 0;
		}
	}

	/* Some devices suspend their ports while being connected to an inactive
	 * host adapter, i.e. if connected before the low-level driver is
	 * loaded.  They become visible either when physically unplugged and
	 * replugged, or when receiving a resume packet.  Send one once. */
	if (!host->resume_packet_sent && !nodemgr_send_resume_packet(host))
		host->resume_packet_sent = 1;

	return 1;
}

/* We need to ensure that if we are not the IRM, that the IRM node is capable of
 * everything we can do, otherwise issue a bus reset and try to become the IRM
 * ourselves. */
static int nodemgr_check_irm_capability(struct hpsb_host *host, int cycles)
{
	quadlet_t bc;
	int status;

	if (hpsb_disable_irm || host->is_irm)
		return 1;

	status = hpsb_read(host, LOCAL_BUS | (host->irm_id),
			   get_hpsb_generation(host),
			   (CSR_REGISTER_BASE | CSR_BROADCAST_CHANNEL),
			   &bc, sizeof(quadlet_t));

	if (status < 0 || !(be32_to_cpu(bc) & 0x80000000)) {
		/* The current irm node does not have a valid BROADCAST_CHANNEL
		 * register and we do, so reset the bus with force_root set */
		HPSB_DEBUG("Current remote IRM is not 1394a-2000 compliant, resetting...");

		if (cycles >= 5) {
			/* Oh screw it! Just leave the bus as it is */
			HPSB_DEBUG("Stopping reset loop for IRM sanity");
			return 1;
		}

		hpsb_send_phy_config(host, NODEID_TO_NODE(host->node_id), -1);
		hpsb_reset_bus(host, LONG_RESET_FORCE_ROOT);

		return 0;
	}

	return 1;
}

static int nodemgr_host_thread(void *__hi)
{
	struct host_info *hi = (struct host_info *)__hi;
	struct hpsb_host *host = hi->host;
	unsigned int g, generation = 0;
	int i, reset_cycles = 0;

	set_freezable();
	/* Setup our device-model entries */
	nodemgr_create_host_dev_files(host);

	for (;;) {
		/* Sleep until next bus reset */
		set_current_state(TASK_INTERRUPTIBLE);
		if (get_hpsb_generation(host) == generation &&
		    !kthread_should_stop())
			schedule();
		__set_current_state(TASK_RUNNING);

		/* Thread may have been woken up to freeze or to exit */
		if (try_to_freeze())
			continue;
		if (kthread_should_stop())
			goto exit;

		/* Pause for 1/4 second in 1/16 second intervals,
		 * to make sure things settle down. */
		g = get_hpsb_generation(host);
		for (i = 0; i < 4 ; i++) {
			msleep_interruptible(63);
			if (kthread_should_stop())
				goto exit;

			/* Now get the generation in which the node ID's we collect
			 * are valid.  During the bus scan we will use this generation
			 * for the read transactions, so that if another reset occurs
			 * during the scan the transactions will fail instead of
			 * returning bogus data. */
			generation = get_hpsb_generation(host);

			/* If we get a reset before we are done waiting, then
			 * start the waiting over again */
			if (generation != g)
				g = generation, i = 0;
		}

		if (!nodemgr_check_irm_capability(host, reset_cycles) ||
		    !nodemgr_do_irm_duties(host, reset_cycles)) {
			reset_cycles++;
			continue;
		}
		reset_cycles = 0;

		/* Scan our nodes to get the bus options and create node
		 * entries. This does not do the sysfs stuff, since that
		 * would trigger uevents and such, which is a bad idea at
		 * this point. */
		nodemgr_node_scan(hi, generation);

		/* This actually does the full probe, with sysfs
		 * registration. */
		nodemgr_node_probe(hi, generation);

		/* Update some of our sysfs symlinks */
		nodemgr_update_host_dev_links(host);
	}
exit:
	HPSB_VERBOSE("NodeMgr: Exiting thread");
	return 0;
}

struct host_iter_param {
	void *data;
	int (*cb)(struct hpsb_host *, void *);
};

static int __nodemgr_for_each_host(struct device *dev, void *data)
{
	struct hpsb_host *host;
	struct host_iter_param *hip = (struct host_iter_param *)data;
	int error = 0;

	host = container_of(dev, struct hpsb_host, host_dev);
	error = hip->cb(host, hip->data);

	return error;
}
/**
 * nodemgr_for_each_host - call a function for each IEEE 1394 host
 * @data: an address to supply to the callback
 * @cb: function to call for each host
 *
 * Iterate the hosts, calling a given function with supplied data for each host.
 * If the callback fails on a host, i.e. if it returns a non-zero value, the
 * iteration is stopped.
 *
 * Return value: 0 on success, non-zero on failure (same as returned by last run
 * of the callback).
 */
int nodemgr_for_each_host(void *data, int (*cb)(struct hpsb_host *, void *))
{
	struct host_iter_param hip;
	int error;

	hip.cb = cb;
	hip.data = data;
	error = class_for_each_device(&hpsb_host_class, NULL, &hip,
				      __nodemgr_for_each_host);

	return error;
}

/* The following two convenience functions use a struct node_entry
 * for addressing a node on the bus.  They are intended for use by any
 * process context, not just the nodemgr thread, so we need to be a
 * little careful when reading out the node ID and generation.  The
 * thing that can go wrong is that we get the node ID, then a bus
 * reset occurs, and then we read the generation.  The node ID is
 * possibly invalid, but the generation is current, and we end up
 * sending a packet to a the wrong node.
 *
 * The solution is to make sure we read the generation first, so that
 * if a reset occurs in the process, we end up with a stale generation
 * and the transactions will fail instead of silently using wrong node
 * ID's.
 */

/**
 * hpsb_node_fill_packet - fill some destination information into a packet
 * @ne: destination node
 * @packet: packet to fill in
 *
 * This will fill in the given, pre-initialised hpsb_packet with the current
 * information from the node entry (host, node ID, bus generation number).
 */
void hpsb_node_fill_packet(struct node_entry *ne, struct hpsb_packet *packet)
{
	packet->host = ne->host;
	packet->generation = ne->generation;
	barrier();
	packet->node_id = ne->nodeid;
}

int hpsb_node_write(struct node_entry *ne, u64 addr,
		    quadlet_t *buffer, size_t length)
{
	unsigned int generation = ne->generation;

	barrier();
	return hpsb_write(ne->host, ne->nodeid, generation,
			  addr, buffer, length);
}

static void nodemgr_add_host(struct hpsb_host *host)
{
	struct host_info *hi;

	hi = hpsb_create_hostinfo(&nodemgr_highlevel, host, sizeof(*hi));
	if (!hi) {
		HPSB_ERR("NodeMgr: out of memory in add host");
		return;
	}
	hi->host = host;
	hi->thread = kthread_run(nodemgr_host_thread, hi, "knodemgrd_%d",
				 host->id);
	if (IS_ERR(hi->thread)) {
		HPSB_ERR("NodeMgr: cannot start thread for host %d", host->id);
		hpsb_destroy_hostinfo(&nodemgr_highlevel, host);
	}
}

static void nodemgr_host_reset(struct hpsb_host *host)
{
	struct host_info *hi = hpsb_get_hostinfo(&nodemgr_highlevel, host);

	if (hi) {
		HPSB_VERBOSE("NodeMgr: Processing reset for host %d", host->id);
		wake_up_process(hi->thread);
	}
}

static void nodemgr_remove_host(struct hpsb_host *host)
{
	struct host_info *hi = hpsb_get_hostinfo(&nodemgr_highlevel, host);

	if (hi) {
		kthread_stop(hi->thread);
		nodemgr_remove_host_dev(&host->device);
	}
}

static struct hpsb_highlevel nodemgr_highlevel = {
	.name =		"Node manager",
	.add_host =	nodemgr_add_host,
	.host_reset =	nodemgr_host_reset,
	.remove_host =	nodemgr_remove_host,
};

int init_ieee1394_nodemgr(void)
{
	int error;

	error = class_register(&nodemgr_ne_class);
	if (error)
		goto fail_ne;
	error = class_register(&nodemgr_ud_class);
	if (error)
		goto fail_ud;
	error = driver_register(&nodemgr_mid_layer_driver);
	if (error)
		goto fail_ml;
	/* This driver is not used if nodemgr is off (disable_nodemgr=1). */
	nodemgr_dev_template_host.driver = &nodemgr_mid_layer_driver;

	hpsb_register_highlevel(&nodemgr_highlevel);
	return 0;

fail_ml:
	class_unregister(&nodemgr_ud_class);
fail_ud:
	class_unregister(&nodemgr_ne_class);
fail_ne:
	return error;
}

void cleanup_ieee1394_nodemgr(void)
{
	hpsb_unregister_highlevel(&nodemgr_highlevel);
	driver_unregister(&nodemgr_mid_layer_driver);
	class_unregister(&nodemgr_ud_class);
	class_unregister(&nodemgr_ne_class);
}